/*
 * $Id$
 *
 * Copyright (C) 2012 Smile Communications, jason.penton@smilecoms.com
 * Copyright (C) 2012 Smile Communications, richard.good@smilecoms.com
 *
 * The initial version of this code was written by Dragos Vingarzan
 * (dragos(dot)vingarzan(at)fokus(dot)fraunhofer(dot)de and the
 * Fraunhofer FOKUS Institute. It was and still is maintained in a separate
 * branch of the original SER. We are therefore migrating it to
 * Kamailio/SR and look forward to maintaining it from here on out.
 * 2011/2012 Smile Communications, Pty. Ltd.
 * ported/maintained/improved by
 * Jason Penton (jason(dot)penton(at)smilecoms.com and
 * Richard Good (richard(dot)good(at)smilecoms.com) as part of an
 * effort to add full IMS support to Kamailio/SR using a new and
 * improved architecture
 *
 * NB: A lot of this code was originally part of OpenIMSCore,
 * FhG Fokus.
 * Copyright (C) 2004-2006 FhG Fokus
 * Thanks for great work! This is an effort to
 * break apart the various CSCF functions into logically separate
 * components. We hope this will drive wider use. We also feel
 * that in this way the architecture is more complete and thereby easier
 * to manage in the Kamailio/SR environment
 *
 * This file is part of Kamailio, a free SIP server.
 *
 * SPDX-License-Identifier: GPL-2.0-or-later
 *
 * Kamailio is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version
 *
 * Kamailio is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
 *
 */


#include "../cdp/cdp_load.h"
#include "../../modules/tm/tm_load.h"
#include "cxdx_avp.h"


static str s_empty = {0, 0};

/**
 * Create and add an AVP to a Diameter message.
 * @param m - Diameter message to add to
 * @param d - the payload data
 * @param len - length of the payload data
 * @param avp_code - the code of the AVP
 * @param flags - flags for the AVP
 * @param vendorid - the value of the vendor id or 0 if none
 * @param data_do - what to do with the data when done
 * @param func - the name of the calling function, for debugging purposes
 * @returns 1 on success or 0 on failure
 */
static int cxdx_add_avp(AAAMessage *m, char *d, int len, int avp_code,
		int flags, int vendorid, int data_do, const char *func)
{
	AAA_AVP *avp;
	if(vendorid != 0)
		flags |= AAA_AVP_FLAG_VENDOR_SPECIFIC;
	avp = cdpb.AAACreateAVP(avp_code, flags, vendorid, d, len, data_do);
	if(!avp) {
		LM_ERR("%s: Failed creating avp\n", func);
		return 0;
	}
	if(cdpb.AAAAddAVPToMessage(m, avp, m->avpList.tail) != AAA_ERR_SUCCESS) {
		LM_ERR("%s: Failed adding avp to message\n", func);
		cdpb.AAAFreeAVP(&avp);
		return 0;
	}
	return 1;
}

/**
 * Create and add an AVP to a list of AVPs.
 * @param list - the AVP list to add to
 * @param d - the payload data
 * @param len - length of the payload data
 * @param avp_code - the code of the AVP
 * @param flags - flags for the AVP
 * @param vendorid - the value of the vendor id or 0 if none
 * @param data_do - what to do with the data when done
 * @param func - the name of the calling function, for debugging purposes
 * @returns 1 on success or 0 on failure
 */
static int cxdx_add_avp_list(AAA_AVP_LIST *list, char *d, int len, int avp_code,
		int flags, int vendorid, int data_do, const char *func)
{
	AAA_AVP *avp;
	if(vendorid != 0)
		flags |= AAA_AVP_FLAG_VENDOR_SPECIFIC;
	avp = cdpb.AAACreateAVP(avp_code, flags, vendorid, d, len, data_do);
	if(!avp) {
		LM_ERR("%s: Failed creating avp\n", func);
		return 0;
	}
	if(list->tail) {
		avp->prev = list->tail;
		avp->next = 0;
		list->tail->next = avp;
		list->tail = avp;
	} else {
		list->head = avp;
		list->tail = avp;
		avp->next = 0;
		avp->prev = 0;
	}

	return 1;
}

/**
 * Returns the value of a certain AVP from a Diameter message.
 * @param m - Diameter message to look into
 * @param avp_code - the code to search for
 * @param vendorid - the value of the vendor id to look for or 0 if none
 * @param func - the name of the calling function, for debugging purposes
 * @returns the str with the payload on success or an empty string on failure
 */
static str cxdx_get_avp(
		AAAMessage *msg, int avp_code, int vendor_id, const char *func)
{
	AAA_AVP *avp;
	str r = {0, 0};

	avp = cdpb.AAAFindMatchingAVP(msg, 0, avp_code, vendor_id, 0);
	if(avp == 0) {
		LM_INFO("%s: Failed finding avp\n", func);
		return r;
	} else
		return avp->data;
}

int cxdx_add_call_id(AAAMessage *msg, str data)
{
	return cxdx_add_avp(msg, data.s, data.len, AVP_Call_Id,
			AAA_AVP_FLAG_VENDOR_SPECIFIC, 50, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Creates and adds a Destination-Realm AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_destination_realm(AAAMessage *msg, str data)
{
	return cxdx_add_avp(msg, data.s, data.len, AVP_Destination_Realm,
			AAA_AVP_FLAG_MANDATORY, 0, AVP_DUPLICATE_DATA, __FUNCTION__);
}


/**
 * Creates and adds a Vendor-Specifig-Application-ID AVP.
 * @param msg - the Diameter message to add to.
 * @param vendor_id - the value of the vendor_id,
 * @param auth_id - the authorization application id
 * @param acct_id - the accounting application id
 * @returns 1 on success or 0 on error
 */
int cxdx_add_vendor_specific_appid(AAAMessage *msg, unsigned int vendor_id,
		unsigned int auth_id, unsigned int acct_id)
{
	AAA_AVP_LIST list;
	str group;
	char x[4];

	list.head = 0;
	list.tail = 0;

	set_4bytes(x, vendor_id);
	cxdx_add_avp_list(&list, x, 4, AVP_Vendor_Id, AAA_AVP_FLAG_MANDATORY, 0,
			AVP_DUPLICATE_DATA, __FUNCTION__);

	if(auth_id) {
		set_4bytes(x, auth_id);
		cxdx_add_avp_list(&list, x, 4, AVP_Auth_Application_Id,
				AAA_AVP_FLAG_MANDATORY, 0, AVP_DUPLICATE_DATA, __FUNCTION__);
	}
	if(acct_id) {
		set_4bytes(x, acct_id);
		cxdx_add_avp_list(&list, x, 4, AVP_Acct_Application_Id,
				AAA_AVP_FLAG_MANDATORY, 0, AVP_DUPLICATE_DATA, __FUNCTION__);
	}

	group = cdpb.AAAGroupAVPS(list);

	cdpb.AAAFreeAVPList(&list);

	return cxdx_add_avp(msg, group.s, group.len,
			AVP_Vendor_Specific_Application_Id, AAA_AVP_FLAG_MANDATORY, 0,
			AVP_FREE_DATA, __FUNCTION__);
}

/**
 * Creates and adds an Auth-Session-State AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_auth_session_state(AAAMessage *msg, unsigned int data)
{
	char x[4];
	set_4bytes(x, data);
	return cxdx_add_avp(msg, x, 4, AVP_Auth_Session_State,
			AAA_AVP_FLAG_MANDATORY, 0, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Creates and adds a User-Name AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_user_name(AAAMessage *msg, str data)
{
	return cxdx_add_avp(msg, data.s, data.len, AVP_User_Name,
			AAA_AVP_FLAG_MANDATORY, 0, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Creates and adds a Public Identity AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_public_identity(AAAMessage *msg, str data)
{
	return cxdx_add_avp(msg, data.s, data.len, AVP_IMS_Public_Identity,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Creates and adds a Visited-Network-ID AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_visited_network_id(AAAMessage *msg, str data)
{
	return cxdx_add_avp(msg, data.s, data.len,
			AVP_IMS_Visited_Network_Identifier,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Creates and adds a UAR-Flags AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_UAR_flags(AAAMessage *msg, unsigned int sos_reg)
{

	char x[4];
	/* optional AVP*/
	if(!sos_reg)
		return 1;

	set_4bytes(x, AVP_IMS_UAR_Flags_Emergency_Registration);
	return cxdx_add_avp(msg, x, 4, AVP_IMS_UAR_Flags,
			AAA_AVP_FLAG_VENDOR_SPECIFIC, IMS_vendor_id_3GPP,
			AVP_DUPLICATE_DATA, __FUNCTION__);
}
/**
 * Creates and adds an Authorization-Type AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_authorization_type(AAAMessage *msg, unsigned int data)
{
	char x[4];
	set_4bytes(x, data);
	return cxdx_add_avp(msg, x, 4, AVP_IMS_User_Authorization_Type,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Returns the Result-Code AVP from a Diameter message.
 * @param msg - the Diameter message
 * @returns the AVP payload on success or an empty string on error
 */
int cxdx_get_result_code(AAAMessage *msg, int *data)
{
	str s;
	s = cxdx_get_avp(msg, AVP_Result_Code, 0, __FUNCTION__);
	if(!s.s)
		return 0;
	*data = get_4bytes(s.s);
	return 1;
}

/**
 * Returns the Experimental-Result-Code AVP from a Diameter message.
 * @param msg - the Diameter message
 * @returns the AVP payload on success or an empty string on error
 */
int cxdx_get_experimental_result_code(AAAMessage *msg, int *data)
{
	AAA_AVP_LIST list;
	AAA_AVP *avp;
	str grp;
	grp = cxdx_get_avp(msg, AVP_IMS_Experimental_Result, 0, __FUNCTION__);
	if(!grp.s)
		return 0;

	list = cdpb.AAAUngroupAVPS(grp);

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_Experimental_Result_Code, 0, 0);
	if(!avp || !avp->data.s) {
		cdpb.AAAFreeAVPList(&list);
		return 0;
	}

	*data = get_4bytes(avp->data.s);
	cdpb.AAAFreeAVPList(&list);

	return 1;
}

/**
 * Returns the Server-Name AVP from a Diameter message.
 * @param msg - the Diameter message
 * @returns the AVP payload on success or an empty string on error
 */
str cxdx_get_server_name(AAAMessage *msg)
{
	return cxdx_get_avp(
			msg, AVP_IMS_Server_Name, IMS_vendor_id_3GPP, __FUNCTION__);
}

/**
 * Returns the Capabilities from the grouped AVP from a Diameter message.
 * @param msg - the Diameter message
 * @param m - array to be filled with the retrieved mandatory capabilities
 * @param m_cnt - size of the array above to be filled
 * @param o - array to be filled with the retrieved optional capabilities
 * @param o_cnt - size of the array above to be filled
 * @returns 1 on success 0 on fail
 */
int cxdx_get_capabilities(AAAMessage *msg, int **m, int *m_cnt, int **o,
		int *o_cnt, str **p, int *p_cnt)
{
	AAA_AVP_LIST list;
	AAA_AVP *avp;
	str grp;
	grp = cxdx_get_avp(
			msg, AVP_IMS_Server_Capabilities, IMS_vendor_id_3GPP, __FUNCTION__);
	if(!grp.s)
		return 0;

	list = cdpb.AAAUngroupAVPS(grp);

	avp = list.head;
	*m_cnt = 0;
	*o_cnt = 0;
	*p_cnt = 0;
	while(avp) {
		if(avp->code == AVP_IMS_Mandatory_Capability)
			(*m_cnt)++;
		if(avp->code == AVP_IMS_Optional_Capability)
			(*o_cnt)++;
		if(avp->code == AVP_IMS_Server_Name)
			(*p_cnt)++;
		avp = avp->next;
	}
	avp = list.head;
	*m = shm_malloc(sizeof(int) * (*m_cnt));
	if(!*m) {
		LM_ERR("cannot allocated %lx bytes of shm.\n", sizeof(int) * (*m_cnt));
		goto error;
	}
	*o = shm_malloc(sizeof(int) * (*o_cnt));
	if(!*o) {
		LM_ERR("cannot allocated %lx bytes of shm.\n", sizeof(int) * (*o_cnt));
		goto error;
	}
	*p = shm_malloc(sizeof(str) * (*p_cnt));
	if(!*p) {
		LM_ERR("cannot allocated %lx bytes of shm.\n", sizeof(str) * (*p_cnt));
		goto error;
	}

	*m_cnt = 0;
	*o_cnt = 0;
	*p_cnt = 0;
	while(avp) {
		if(avp->code == AVP_IMS_Mandatory_Capability)
			(*m)[(*m_cnt)++] = get_4bytes(avp->data.s);
		if(avp->code == AVP_IMS_Optional_Capability)
			(*o)[(*o_cnt)++] = get_4bytes(avp->data.s);
		if(avp->code == AVP_IMS_Server_Name)
			(*p)[(*p_cnt)++] = avp->data;
		avp = avp->next;
	}
	cdpb.AAAFreeAVPList(&list);
	return 1;

error:
	cdpb.AAAFreeAVPList(&list);
	if(*m)
		shm_free(*m);
	if(*o)
		shm_free(*o);
	if(*p)
		shm_free(*p);
	*m_cnt = 0;
	*o_cnt = 0;
	*p_cnt = 0;
	return 0;
}

/**
 * Transactional SIP response - tries to create a transaction if none found.
 * @param msg - message to reply to
 * @param code - the Status-code for the response
 * @param text - the Reason-Phrase for the response
 * @returns the tmb.t_reply() result
 */
int cscf_reply_transactional(struct sip_msg *msg, int code, char *text)
{
	unsigned int hash, label;
	if(tmb.t_get_trans_ident(msg, &hash, &label) < 0) {

		if(tmb.t_newtran(msg) < 0)
			LM_ERR("Failed creating SIP transaction\n");
	}
	return tmb.t_reply(msg, code, text);
}

/**
 * Creates and adds a SIP-Number-Auth-Items AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_sip_number_auth_items(AAAMessage *msg, unsigned int data)
{
	char x[4];
	set_4bytes(x, data);
	return cxdx_add_avp(msg, x, 4, AVP_IMS_SIP_Number_Auth_Items,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Creates and adds a SIP-Auth-Data-Item AVP.
 * @param msg - the Diameter message to add to.
 * @param auth_scheme - the value for the authorization scheme AVP
 * @param auth - the value for the authorization AVP
 * @returns 1 on success or 0 on error
 */
int cxdx_add_sip_auth_data_item_request(AAAMessage *msg, str auth_scheme,
		str auth, str username, str realm, str method, str server_name)
{
	AAA_AVP_LIST list;
	str group;
	str etsi_authorization = {0, 0};
	list.head = 0;
	list.tail = 0;

	if(auth_scheme.len) {
		cxdx_add_avp_list(&list, auth_scheme.s, auth_scheme.len,
				AVP_IMS_SIP_Authentication_Scheme,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_3GPP, AVP_DONT_FREE_DATA, __FUNCTION__);
	}
	if(auth.len) {
		cxdx_add_avp_list(&list, auth.s, auth.len, AVP_IMS_SIP_Authorization,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_3GPP, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(server_name.len) {
		etsi_authorization = cxdx_ETSI_sip_authorization(username, realm,
				s_empty, server_name, s_empty, s_empty, method, s_empty);

		if(etsi_authorization.len) {
			cxdx_add_avp_list(&list, etsi_authorization.s,
					etsi_authorization.len, AVP_ETSI_SIP_Authorization,
					AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
					IMS_vendor_id_ETSI, AVP_FREE_DATA, __FUNCTION__);
		}
	}

	if(!list.head)
		return 1;
	group = cdpb.AAAGroupAVPS(list);

	cdpb.AAAFreeAVPList(&list);

	return cxdx_add_avp(msg, group.s, group.len, AVP_IMS_SIP_Auth_Data_Item,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_FREE_DATA, __FUNCTION__);
}

/**
 * Creates and adds a Server-Name AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_server_name(AAAMessage *msg, str data)
{
	return cxdx_add_avp(msg, data.s, data.len, AVP_IMS_Server_Name,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Returns the SIP-Number-Auth-Items AVP from a Diameter message.
 * @param msg - the Diameter message
 * @returns the number or 0 on error
 */
int cxdx_get_sip_number_auth_items(AAAMessage *msg, int *data)
{
	str s;
	s = cxdx_get_avp(msg, AVP_IMS_SIP_Number_Auth_Items, IMS_vendor_id_3GPP,
			__FUNCTION__);
	if(!s.s)
		return 0;
	*data = get_4bytes(s.s);
	return 1;
}

/**
 * Returns the Auth-Data-Item from a Diameter answer message.
 * @param msg - the Diameter message
 * @param auth_date - the string to fill with the authorization data
 * @param item_number - the int to fill with the item number
 * @param auth_scheme - the string to fill with the authentication scheme data
 * @param authenticate - the string to fill with the authenticate data
 * @param authorization - the string to fill with the authorization data
 * @param ck - the string to fill with the cipher key
 * @param ik - the string to fill with the integrity key
 * @returns the AVP payload on success or an empty string on error
 */
int cxdx_get_auth_data_item_answer(AAAMessage *msg, AAA_AVP **auth_data,
		int *item_number, str *auth_scheme, str *authenticate,
		str *authorization, str *ck, str *ik, str *ip, str *ha1,
		str *response_auth, str *digest_realm, str *line_identifier)
{
	AAA_AVP_LIST list;
	AAA_AVP_LIST list2;
	AAA_AVP *avp;
	AAA_AVP *avp2;
	str grp;
	ha1->s = 0;
	ha1->len = 0;
	*auth_data = cdpb.AAAFindMatchingAVP(
			msg, *auth_data, AVP_IMS_SIP_Auth_Data_Item, IMS_vendor_id_3GPP, 0);
	if(!*auth_data)
		return 0;

	grp = (*auth_data)->data;
	if(!grp.len)
		return 0;

	list = cdpb.AAAUngroupAVPS(grp);

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_SIP_Item_Number, IMS_vendor_id_3GPP, 0);
	if(!avp || avp->data.len != 4)
		*item_number = 0;
	else
		*item_number = get_4bytes(avp->data.s);

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_SIP_Authentication_Scheme, IMS_vendor_id_3GPP, 0);
	if(!avp || !avp->data.s) {
		auth_scheme->s = 0;
		auth_scheme->len = 0;
	} else
		*auth_scheme = avp->data;

	/* Early-IMS */
	ip->s = 0;
	ip->len = 0;
	avp = cdpb.AAAFindMatchingAVPList(list, 0, AVP_Framed_IP_Address, 0, 0);
	if(avp && avp->data.s) {
		if(avp->data.len != 4) {
			LM_ERR("Invalid length of AVP Framed IP Address (should be 4 for "
				   "AVP_Framed_IP_Address) >%d.\n",
					avp->data.len);
		}
		ip->len = 4;
		ip->s = avp->data.s;
	} else {
		avp = cdpb.AAAFindMatchingAVPList(
				list, 0, AVP_Framed_IPv6_Prefix, 0, 0);
		if(avp && avp->data.s) {
			if(avp->data.len == 0) {
				LM_ERR("Invalid length of AVP Framed IPv6 Prefix (should be >0 "
					   "for AVP_Framed_IPv6_Prefix) >%d.\n",
						avp->data.len);
			}
			ip->len = avp->data.len;
			ip->s = avp->data.s;
		}
	}

	/* Digest */

	avp = cdpb.AAAFindMatchingAVPList(list, 0,
			AVP_CableLabs_SIP_Digest_Authenticate, IMS_vendor_id_CableLabs, 0);
	if(avp && avp->data.s) {
		list2 = cdpb.AAAUngroupAVPS(avp->data);

		avp2 = cdpb.AAAFindMatchingAVPList(
				list2, 0, AVP_CableLabs_Digest_HA1, IMS_vendor_id_CableLabs, 0);
		if(!avp2 || !avp2->data.s) {
			ha1->s = 0;
			ha1->len = 0;
			cdpb.AAAFreeAVPList(&list2);
			return 0;
		}
		*ha1 = avp2->data;
		cdpb.AAAFreeAVPList(&list2);
	}


	/* SIP Digest */

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_SIP_Digest_Authenticate, IMS_vendor_id_3GPP, 0);
	if(avp && avp->data.s) {
		list2 = cdpb.AAAUngroupAVPS(avp->data);

		avp2 = cdpb.AAAFindMatchingAVPList(list2, 0, AVP_IMS_Digest_HA1, 0, 0);
		if(!avp2 || !avp2->data.s) {
			ha1->s = 0;
			ha1->len = 0;
			cdpb.AAAFreeAVPList(&list2);
			return 0;
		}
		*ha1 = avp2->data;
		cdpb.AAAFreeAVPList(&list2);
	}


	/* AKA, MD5 */
	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_SIP_Authenticate, IMS_vendor_id_3GPP, 0);
	if(!avp || !avp->data.s) {
		authenticate->s = 0;
		authenticate->len = 0;
	} else
		*authenticate = avp->data;

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_SIP_Authorization, IMS_vendor_id_3GPP, 0);
	if(!avp || !avp->data.s) {
		authorization->s = 0;
		authorization->len = 0;
	} else
		*authorization = avp->data;

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_Confidentiality_Key, IMS_vendor_id_3GPP, 0);
	if(!avp || !avp->data.s) {
		ck->s = 0;
		ck->len = 0;
	} else
		*ck = avp->data;

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_IMS_Integrity_Key, IMS_vendor_id_3GPP, 0);
	if(!avp || !avp->data.s) {
		ik->s = 0;
		ik->len = 0;
	} else
		*ik = avp->data;

	/* ETSI HTTP Digest */

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_ETSI_SIP_Authenticate, IMS_vendor_id_ETSI, 0);
	if(avp && avp->data.s) {
		list2 = cdpb.AAAUngroupAVPS(avp->data);

		avp2 = cdpb.AAAFindMatchingAVPList(
				list2, 0, AVP_ETSI_Digest_Realm, IMS_vendor_id_ETSI, 0);
		if(!avp2 || !avp2->data.s) {
			digest_realm->s = 0;
			digest_realm->len = 0;
			cdpb.AAAFreeAVPList(&list2);
			return 0;
		}
		*digest_realm = avp2->data;

		avp2 = cdpb.AAAFindMatchingAVPList(
				list2, 0, AVP_ETSI_Digest_Nonce, IMS_vendor_id_ETSI, 0);
		if(!avp2 || !avp2->data.s) {
			authenticate->s = 0;
			authenticate->len = 0;
			cdpb.AAAFreeAVPList(&list2);
			return 0;
		}
		*authenticate = avp2->data;

		avp2 = cdpb.AAAFindMatchingAVPList(
				list2, 0, AVP_ETSI_Digest_HA1, IMS_vendor_id_ETSI, 0);
		if(!avp2 || !avp2->data.s) {
			ha1->s = 0;
			ha1->len = 0;
			cdpb.AAAFreeAVPList(&list2);
			return 0;
		}
		*ha1 = avp2->data;

		cdpb.AAAFreeAVPList(&list2);
	}

	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_ETSI_SIP_Authentication_Info, IMS_vendor_id_ETSI, 0);
	if(avp && avp->data.s) {
		list2 = cdpb.AAAUngroupAVPS(avp->data);

		avp2 = cdpb.AAAFindMatchingAVPList(
				list2, 0, AVP_ETSI_Digest_Response_Auth, IMS_vendor_id_ETSI, 0);
		if(!avp2 || !avp2->data.s) {
			response_auth->s = 0;
			response_auth->len = 0;
			cdpb.AAAFreeAVPList(&list2);
			return 0;
		}
		*response_auth = avp2->data;
		cdpb.AAAFreeAVPList(&list2);
	} else {
		response_auth->s = 0;
		response_auth->len = 0;
	}

	/* NASS Bundled */
	avp = cdpb.AAAFindMatchingAVPList(
			list, 0, AVP_ETSI_Line_Identifier, IMS_vendor_id_ETSI, 0);
	if(!avp || !avp->data.s) {
		line_identifier->s = 0;
		line_identifier->len = 0;
	} else
		*line_identifier = avp->data;

	cdpb.AAAFreeAVPList(&list);
	return 1;
}

/**
 * Creates and adds an ETSI_sip_authorization AVP.
 * @param username - UserName
 * @param realm - Realm
 * @param nonce - Nonce
 * @param URI - URI
 * @param response - Response
 * @param algorithm - Algorithm
 * @param method - Method
 * @param hash - Enitity-Body-Hash
 * @returns grouped str on success
 */
str cxdx_ETSI_sip_authorization(str username, str realm, str nonce, str URI,
		str response, str algorithm, str method, str hash)
{
	AAA_AVP_LIST list;
	str group = {0, 0};
	list.head = 0;
	list.tail = 0;

	if(username.len) {
		cxdx_add_avp_list(&list, username.s, username.len,
				AVP_ETSI_Digest_Username,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(realm.len) {
		cxdx_add_avp_list(&list, realm.s, realm.len, AVP_ETSI_Digest_Realm,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(nonce.len) {
		cxdx_add_avp_list(&list, nonce.s, nonce.len, AVP_ETSI_Digest_Nonce,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(URI.len) {
		cxdx_add_avp_list(&list, URI.s, URI.len, AVP_ETSI_Digest_URI,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(response.len) {
		cxdx_add_avp_list(&list, response.s, response.len,
				AVP_ETSI_Digest_Response,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(algorithm.len) {
		cxdx_add_avp_list(&list, algorithm.s, algorithm.len,
				AVP_ETSI_Digest_Algorithm,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(method.len) {
		cxdx_add_avp_list(&list, method.s, method.len, AVP_ETSI_Digest_Method,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(hash.len) {
		cxdx_add_avp_list(&list, hash.s, hash.len,
				AVP_ETSI_Digest_Entity_Body_Hash,
				AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
				IMS_vendor_id_ETSI, AVP_DONT_FREE_DATA, __FUNCTION__);
	}

	if(!list.head)
		return group;
	group = cdpb.AAAGroupAVPS(list);

	cdpb.AAAFreeAVPList(&list);

	return group;
}

/**
 * Returns the User-Data from a Diameter message.
 * @param msg - the Diameter message
 * @returns the AVP payload on success or an empty string on error
 */

str cxdx_get_user_data(AAAMessage *msg)
{
	return cxdx_get_avp(
			msg, AVP_IMS_User_Data_Cx, IMS_vendor_id_3GPP, __FUNCTION__);
}

/**
 * Returns the Charging-Information from a Diameter message.
 * @param msg - the Diameter message
 * @returns the AVP payload on success or an empty string on error
 */
int cxdx_get_charging_info(
		AAAMessage *msg, str *ccf1, str *ccf2, str *ecf1, str *ecf2)
{
	AAA_AVP_LIST list;
	AAA_AVP *avp;
	str grp;
	grp = cxdx_get_avp(msg, AVP_IMS_Charging_Information, IMS_vendor_id_3GPP,
			__FUNCTION__);
	if(!grp.s)
		return 0;

	list = cdpb.AAAUngroupAVPS(grp);

	if(ccf1) {
		avp = cdpb.AAAFindMatchingAVPList(list, 0,
				AVP_IMS_Primary_Charging_Collection_Function_Name,
				IMS_vendor_id_3GPP, 0);
		if(avp)
			*ccf1 = avp->data;
	}
	if(ccf2) {
		avp = cdpb.AAAFindMatchingAVPList(list, 0,
				AVP_IMS_Secondary_Charging_Collection_Function_Name,
				IMS_vendor_id_3GPP, 0);
		if(avp)
			*ccf2 = avp->data;
	}
	if(ecf1) {
		avp = cdpb.AAAFindMatchingAVPList(list, 0,
				AVP_IMS_Primary_Event_Charging_Function_Name,
				IMS_vendor_id_3GPP, 0);
		if(avp)
			*ecf1 = avp->data;
	}
	if(ecf2) {
		avp = cdpb.AAAFindMatchingAVPList(list, 0,
				AVP_IMS_Secondary_Event_Charging_Function_Name,
				IMS_vendor_id_3GPP, 0);
		if(avp)
			*ecf2 = avp->data;
	}

	cdpb.AAAFreeAVPList(&list);
	return 1;
}

/**
 * Creates and adds a Server-Assignment-Type AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_server_assignment_type(AAAMessage *msg, unsigned int data)
{
	char x[4];
	set_4bytes(x, data);
	return cxdx_add_avp(msg, x, 4, AVP_IMS_Server_Assignment_Type,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Creates and adds Userdata-Available AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_userdata_available(AAAMessage *msg, unsigned int data)
{
	char x[4];
	set_4bytes(x, data);
	return cxdx_add_avp(msg, x, 4, AVP_IMS_User_Data_Already_Available,
			AAA_AVP_FLAG_MANDATORY | AAA_AVP_FLAG_VENDOR_SPECIFIC,
			IMS_vendor_id_3GPP, AVP_DUPLICATE_DATA, __FUNCTION__);
}

/**
 * Finds out the next Public-Identity AVP from a Diameter message.
 * @param msg - the Diameter message
 * @param pos - position to resume search or NULL if to start from the first AVP
 * @param avp_code - the code of the AVP to look for
 * @param vendor_id - the vendor id of the AVP to look for
 * @param func - the name of the calling function for debugging purposes
 * @returns the AVP payload on success or an empty string on error
 */
AAA_AVP *cxdx_get_next_public_identity(AAAMessage *msg, AAA_AVP *pos,
		int avp_code, int vendor_id, const char *func)
{
	AAA_AVP *avp;

	avp = cdpb.AAAFindMatchingAVP(msg, pos, avp_code, vendor_id, 0);
	if(avp == 0) {
		LM_DBG("INFO:%s: Failed finding avp\n", func);
		return avp;
	} else
		return avp;
}

/**
 * Returns the User-Name AVP from a Diameter message.
 * @param msg - the Diameter message
 * @returns the AVP payload on success or an empty string on error
 */
str cxdx_get_user_name(AAAMessage *msg)
{
	return cxdx_get_avp(msg, AVP_User_Name, 0, __FUNCTION__);
}

/**
 * Creates and adds a Result-Code AVP.
 * @param msg - the Diameter message to add to.
 * @param data - the value for the AVP payload
 * @returns 1 on success or 0 on error
 */
int cxdx_add_result_code(AAAMessage *msg, unsigned int data)
{
	char x[4];
	set_4bytes(x, data);
	return cxdx_add_avp(msg, x, 4, AVP_Result_Code, AAA_AVP_FLAG_MANDATORY, 0,
			AVP_DUPLICATE_DATA, __FUNCTION__);
}
